J.W. Wang, B.J. Lu, and Y.C. Zhang
[1] M.R. Piekutowshi, T. Litwinowicz, & R.J. Frowd, Optimalshort-term scheduling for a large-scale hydro system, IEEETrans. on Power Systems, 9(2), 1994, 805–811. doi:10.1109/59.317636 [2] J.S. Yang & N. Chen, Short-term hydrothermal coordinationusing multi-pass dynamic programming, IEEE Trans. on PowerSystems, 4(3), 1989, 1050–1056. doi:10.1109/59.32598 [3] F.J. Heredia & N. Nabona, Optimum short-term hydrothermalscheduling with spinning reserve through network flows, IEEETrans. on Power Systems, 10(3), 1995, 1642–1651. doi:10.1109/59.466476 [4] P.H. Chen & H.C. Chang, Genetic aided scheduling of hy-draulically coupled plants in hydro-thermal coordination, IEEETrans. on Power Systems, 11(2), 1996, 975–981. doi:10.1109/59.496183 [5] X.H.Guan, E. Ni, R. Li, & P.B. Luh, An optimization-basedalgorithm for scheduling hydrothermal power systems withcascaded reservoirs and discrete hydro constraints, IEEE Trans.on Power Systems, 12(4), 1997, 1775–1780. doi:10.1109/59.627890 [6] Y.G. Wu, C.Y. Ho, & D.Y. Wang, A diploid genetic approachto short-term scheduling of hydro-thermal system, IEEE Trans.on Power Systems, 15(4), 2000, 1268–1274. doi:10.1109/59.898100 [7] W.W.-G. Yeh, Reservoir management and operation models:A state of the art review, Water Resources Research, 21(12),1985, 1797–1818. doi:10.1029/WR021i012p01797 [8] Z.H. Zhou, X.C. Shi, & T.X. Li, Water conservation and hy-draulic power planning (Beijing: Chinese Water Conservation& Electric Power Press, 1993) (in Chinese).
Important Links:
Go Back
